BMS & Energy Storage in EV

About the Program

Learn Basics Concept of EV and HEV, Chassis & Dynamics, Steering & its Mechanism, Suspension, Braking Dynamics, Tire & Its Features, Chassis Design and Simulation, Motor, Battery & BMS for EV, Simulating Vehicle Setup on MATLAB Using Powertrain Blockset accompanied with various recent case studies to attain the challenges set by the EV industries with Personalized Industry Mentorship, Career Guidance, and Placement Assistance and much more.

Personalised Mentorship

Get mentored by an experienced EV Industry expert and receive personalised feedback calls for better career guidance.

Globally Valid Certificate

Get a Globally valid certificate and enter your workplace with confidence and assert yourself as a subject matter expert.

Student Support

Student support available 09 AM to 07 PM IST via email or call and get a response within 2 working hours.

Specialized BMS & Energy Storage in EV

Certified by ASDC

Complete all the courses successfully to obtain the certification from ASDC.

• Globally Recognized Certificate

• Recommended program by SMEV, MSME and 17 + Automotive Industries.

EV-05

Case Studies

Spot Welding v/s Laser Welding

There are two major methods for combining cylindrical cells – spot welding and laser welding. Spot welding although cheaper has its own demerits, in this case, a study we understand the extent to which spot welding might affect cell life.

Swappable Battery Pack

The battery pack is used for providing the energy to drive. The battery pack recharge time is a major concern among consumers and manufacturers alike. To solve these various alternatives have been introduced such as – battery swapping. In this, we talk about the feasibility of swapping and design challenges.

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About BMS & Energy Storage in EV Program

This course on BMS & Energy Storage in EV-Battery Management System by a team of experts led by an ISIEINDIA technical committee (300+ Professional Member from Indian and Global OEM i.e. M&M, TATA Motors, Renault, TVS etc.)

Brought to you by ISIEINDIA e-learning platform a leading online learning platform for EVs popular in India and South Asia. ISIEINDIA leading E-mobility platform for professionals, Engineers, Academicians, and Students. We are filling the gap between education and Industry level skills required. Electric Vehicle is a growing sector which offers great career opportunities. Our program Electric vehicle Engineering is endorsed by Niti Aayog, Government of India and our platform is recommend platform by the Society of Electric vehicle manufacturers (SMEV).

Market Segmentation:

  • The Indian Electric Vehicles, Electric Vehicle Batteries, and Electric Vehicle Charging Infrastructure Market are further segmented on the basis of separator type, charger type, vehicle type, battery type, and region. The three-wheeler dominated the Indian electric vehicles, electric vehicle batteries, and electric vehicle charging infrastructure market in 2018 and is anticipated to maintain its dominance throughout the forecast period (2019-2030).  While highlighting the key driving and restraining forces for this market, the report also provides a detailed study of the industry under analysis. The report also analyzes the prevalence of different types of batteries used in various vehicle types.  The Indian electric vehicles, electric vehicle batteries, and electric vehicle charging infrastructure market has been segregated on the basis of region into four major regions, namely North India, South India, East India, and West India.
  • The global lithium-ion battery market was valued at $36.7 billion in 2019 and is projected to hit $129.3 billion by 2027, at a CAGR of 18.0% from 2020 to 2027. A lithium-ion (Li-ion) battery is a rechargeable battery, which utilizes lithium ions as the essential components of its electrochemistry. Lithium-ion battery finds its major application in laptops, PDAs, cell phones, and iPods.
  • The lithium-ion battery market growth is driven by surgein need for Smartphone and other electronic devices and increase in electric vehicles are some of the key factors that significantly drive the growth of the global lithium-ion battery market. Implementation of stringent government regulations to control increasing pollution levels is further expected to augment the market growth. However, the high price of lithium-ion batteries is anticipated to restrain the market growth. On the contrary, higher energy efficiency requirements in technologically updated consumer gadgets are expected to provide expanding lithium-ion batteries market opportunities to the key players.

Free Research Paper Publication

  • Case Study on Live model, Research Paper Writing and Free Research Paper Publication. Downloadable kit includes tools such as e-books, research paper references and gazetted government reports are made available at just one click.

Program Overview:

  • EV and HEV specialization (Electric Vehicle Engineering) will provide a dynamic academic program inclusive of live projects, major and minor projects along with hands-on experience in the Electric / Hybrid / Renewable Energy Domain. The program imparts practical application of skills in the field of electric vehicle engineering. It provides for a hands-on experience through practical learning and Case Study.
  • Under this specialization you will be having deep learning about, Alternative power sources, Energy fellows, Optimization of Consumption of Energy, Various energy storage systems i.e. Lithium, Led acid, Fuel Cell, Hydrogen Cell, Ultra Capacitor, etc. You will be also learning how to design energy storage devices and their constriction, Mathematical modeling, Thermal molding, etc. The program is having detailed learning about renewable energy sources, Energy Management, BMS –Battery Management System Design and Development.
  • ISIEINDIA well knows platform from 2013 to provide opportunities to learn and develop innovation, technologies, especially in the EV sector. Now, we present the specialization program on Energy Storage & BMS. This program provides you with the most flexible learning environment possible. This program is offered as a self-paced program often referred to as an asynchronous online program which is time-independent, meaning that it can be accessed 24X7 lifetime access. This program can be accessed from multiple devices which makes it easy to learn on the go. Lectures that are pre-recorded or slide presentation with voice-over commentary, interactive discussion boxes, real-time modeling on different advanced software, GIF, Videos, graphs, etc.

Program Outcomes

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Mathematical Modelling, Thermal Analysis etc.

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Improve Vehicle Performance and Fuel/Energy Consumption.

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How NOT to and how to build/select a right Battery pack for an EV/HEV.

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Learn how energy flows inside an Electric and Hybrid Vehicle

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Vehicle Dynamics that include Steering, Braking, Steering Selection norms and calculation, Wheel dynamics and Suspension system.

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Battery Management System, Energy Management Control Strategies and Power Electronics.

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Learn concept of Energy storage inside at Fuel Cell, ultra Capacitor, and Hydrogen Cells etc.

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Deep /detailed know about Lithium Battery Development.

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Kinetic Energy Recovery System / Regenerative Braking System.

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Grid Integration, Data acquisition, Artificial Intelligence, IOT etc.

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Learn how to Simulating vehicle setup on Mat lab simulink using Powertrain block setup.

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Battery Management System, Energy Management Control Strategies and Power Electronics.

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Renewable Energy Sources detailed concept to generate and optimize energy.

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Lean different type of Energy storage Devices and their construction, Energy Management and optimization.

ISIEINDIA Instructors

Learn from leading Industry oriented trainer, faculty and leaders

Our Expert Work At

Top companies from all around the world

ISIEINDIA Alumni

Where our Alumni Work

Payment Offers

Now, pay your course fees in installments at no cost EMI available at Credit cards following banks

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Introduction to Energy Storage System

1
Introduction to energy requirements in EV
00:11:00 hr
2
Global energy situation – Energy Security
00:17:00 hr
3
Industry 4.0 Energy Management
00:17:00 hr
4
Type of Energy Storage System
00:17:00 hr
5
Battery Terminology
00:18:00 hr

Energy Storage Systems

1
Battery based Energy storage and its analysis
00:18:00 hr
2
Fuel cell based energy storage and its analysis
00:21:00 hr
3
Flywheel based energy storage
00:16:00 hr
4
Electrochemistry and Battery Material

Design and Chemistry of Batteries

1
Design of Batteries
00:18:00 hr
2
Electrochemistry of Batteries
00:13:00 hr
3
Lead acid batteries Chemistry
00:14:00 hr
4
Advanced Electrolytes and Recent Development
00:15:00 hr
5
Comparison between different batteries
00:09:00 hr
6
Structures used in Cathodes
00:10:00 hr
7
Types of Coolant used for the Batteries system
00:12:00 hr
8
Battery 2nd Life
00:12:00 hr

Concept and Calculation for Lithium Battery and BMS - Design and Chemistry of batteries

1
Li-Ion Battery for EV (Parameter )
00:30:00 hr
2
Calculation for Battery ( Motor Selection, Voltage , WLTP, Capacity & Configuration)
00:30:00 hr
3
Sensors & Telemetry for Battery Pack
00:32:00 hr
4
Data Validation and Cooling System
00:30:00 hr
5
BMS & Battery Pack Integration
00:40:00 hr
6
Cell Balancing
00:43:00 hr
7
Role of BMS, Block Diagram and architecture
00:13:00 hr
8
Battery Charger Circuit using MATLAB Simulink
00:24:00 hr
9
Motor & Controller for EV
10
Application Specific IC (ASIC)
00:17:00 hr

Essentials of Lithium Battery Systems

1
Difference between a DIY pack and an industry-grade battery pack
00:16:00 hr
2
Type of cooling mechanism you need for Battery pack
00:12:00 hr
3
Thermal modelling of a Battery pack
01:00:00 hr
4
Failure Mode Analysis for Battery
00:12:00 hr
5
Battery Performance Index
00:13:00 hr
6
Case Study on NISSAN LEAF/ Tesla Battery Technology
00:28:00 hr
7
Validation of EV in India
00:09:00 hr
8
Validation of Battery as per ARAI
00:18:00 hr

Future Prospects of Batteries

1
Future of Batteries
00:15:00 hr
2
Metal air batteries
00:08:00 hr
3
Glass Battery
00:06:00 hr
4
Sodium ion battery
00:07:00 hr

Fuel Cell Technologies

1
Introduction to Fuel Cell & Types
00:15:00 hr
2
Basic Structure of fuel cell
00:14:00 hr
3
Difference between battery and fuel cell
4
Properties and Use of Fuel Cell
00:13:00 hr
5
Fuel Cell Technology and System
00:11:00 hr
6
Fuel Cell Engine Safety
00:16:00 hr
7
Fuel Cell Hybrid Electric Vehicle
00:17:00 hr
8
Performance Comparison – Energy Management based ( Comparative Study)
00:20:00 hr
9
Acts, Codes, Regulations, and Guidelines
00:18:00 hr
10
Glossary and Conversions
00:16:00 hr
11
Case Study – BMW I Hydrogen Next
00:14:00 hr

Capacitors

1
Capacitors for Automobiles
00:21:00 hr
2
Super Capacitor
00:29:00 hr
3
Ceramic Capacitors
00:18:00 hr
4
KCM Series Capacitor / EVC Series Capacitor and other components
00:17:00 hr
5
Case Study – Electric Vehicle Charging through micro grids
00:14:00 hr

Performance & Optimization

1
Improve Vehicle Performance and Fuel/Energy Consumption
00:22:00 hr
2
Optimization of Power Train and Control Strategy of a Hybrid Electric Vehicle for Maximum Energy Economy
00:16:00 hr

Energy Management Control Strategies of HEV

1
Control Strategy of HEV
00:21:00 hr
2
Regenerative braking System
00:16:00 hr
3
Kinetic Energy Recovery System
00:17:00 hr

Smart Energy Management

1
Energy Generation Through Renewable Sources
00:20:00 hr
2
Use of Artificial Intelligence(AI)& IOT in Energy Management
00:20:00 hr
3
Case Study – Energy Management Solar Electric Vehicle
00:15:00 hr
4
Case Study – Nissan Leaf Charging Station – Powered by Renewable Energy
5
Assessment

Mini Project

1
Mini Project-1 : Design and perform thermal simulation on Battery pack on Ansys
2
Mini Project 2: Analyse and Compare the performance parameters of different types of Batteries

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Enrolled: 54 students
Duration: 1 Month
Lectures: 67
Video: 20+ Hours
Level: Intermediate
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